Conduit for the reomovable positioning of temperature sensors in a water heater and method

ABSTRACT

A passage is provided in a water heater and mounted against the outer surface of the water tank side wall to removably mount thermistors secured to a support at distinct locations along the tank side wall to provide temperature value signal representative of the water temperature in the tank adjacent the thermistors. The passage may be formed by a metal tube held next to the side wall of the tank or a U-shaped channel held against the outer surface of the tank wall with the through thereof facing the tank side wall outer surface. The thermistors are mounted spaced-apart on a support inserted in the passage. The method is also described.

TECHNICAL FIELD

The present invention relates to a water heater having an access passagefor removably mounting temperature sensors next to a water tank of thewater heater for monitoring the temperature of the water inside distinctlocations of the water tank and method.

BACKGROUND OF THE INVENTION

In order to control the temperature of the water in a water tank of awater heater, one or more temperature probes are usually permanentlymounted in the wall of the tank and project inside the tank in contactwith the water therein. In recent years, and due to the increase cost ofelectricity, more sophisticated control systems have been developed tocontrol the operation of the water heater whereby to operate theresistive heating elements during non-peak hours when electricity costsare lowest to create a reserve of hot water for use during peak-hours toreduce the operating time of the elements when electricity is at apremium.

Utilities also have a need to take control of water heaters to preventovercharging its grid during peak hours and to use its electricity whenthe demand is low as well as the cost. Such control would create anequilibrium or a mean demand of electricity of the grid. Still further,after power outages when electricity is restored, it is desirable forthe utility to control the load to prevent an overload on the grid.Control devices have been developed and continue to be developed toremotely control the actuation of the resistive heating elements of thewater heaters at the customer locations while attempting to satisfy thehot water demands of the customers. In order to achieve this, it isnecessary to determine the hot water reserve inside the tank of thewater heater. Accordingly, temperature sensors are required to provideactual temperature values at distinct locations of the water tank andparticularly in the uppermost region of the tank where the hottest wateris located and drawn.

Thermistors are excellent electrical components for sensing temperaturevariations as its resistance varies with temperature changes. Becausethe water tank is constructed of steel material which is a good thermalconductor, by sensing the temperature of the steel by mountingthermistors there against, the temperature of the water inside the tankcan be fairly accurately determined. To ensure a desired hot watervolume in the tank, it is necessary to monitor the temperature of thewater in the region of the heating elements. Because the thermistorsneed to be mounted outside the water tank wall, there is often no accessto these sensor components once the thermal insulation foam is injectedabout the tank wall sealing access to these devices and their wiring.Water heaters are now being manufactured with three resistive heatingelements to achieve better control of the water temperature in the tankand by selecting the operation of the various heating elements, some ofwhich may be of a much lower wattage than the others. Thus, threethermistors would be required to monitor the temperature of the tankwall in the region of the three resistive heating elements. Because ofthe insulation blown inside the gap formed between the outer skin of thewater heater and the water tank, there would be a need to form foam damsabout the thermistors and access doors in the outer casing for access tothe thermistors in case of a defect. This is not practical and adds tocost. Also, it complicates the troubleshooting and repair and does notremedy a defective wiring problems that could occur between thethermistors.

Mounting the thermistors on the tank wall and sealing them with the foaminsulation would require replacing the hot water heater to remedy adefective thermistor problem or a defective associated wiring probleminside the water heater.

SUMMARY OF THE INVENTION

It is a feature of the present invention to provide an access passageinside a water heater for removably mounting temperature sensorsadjacent the water tank of the water heater and thereby overcoming theabove mentioned problems.

Another feature of the present invention is to provide a method forremovably mounting an elongated support having temperature sensorssecured thereon and its wiring inside an elongated access passage formedof thermally conductive material and disposed nest to the tank wallwhereby the temperature inside the passage is substantially the same asthe adjacent tank wall and adjacent water inside the tank.

Another feature of the present invention is to provide a water heaterhaving an access passage next to the tank wall for receiving an assemblyof thermistors therein with the thermistors disposed at respective onesof distinct locations.

According to the above features, from a broad aspect, the presentinvention provides an elongated access passage for removably mountingtemperature sensors adjacent a water tank of a water heater. The accesspassage is disposed vertically next to an outer surface of a water tankwall of the water heater. The access passage is dimensioned to receiveone or more temperature sensors and a support thereof from a top accessopening of the passage for positioning the one or more temperaturesensors at distinct locations therein for sensing the temperaturesurrounding the one or more temperature sensors at the distinctlocations.

According to another broad aspect of the present invention there isprovided a water heater comprised of a water tank having means to heatthe water inside the water tank. An outer casing is secured spaced fromthe surrounding side wall and the top wall of the water tank and definesan insulating gap there between to receive a thermally insulatingmaterial. An access passage of predetermined length extends verticallynext to the surrounding side wall of the water tank for receivingtherein two or more temperature sensors at distinct locations thereinfor sensing the temperature surrounding the two or more temperaturesensors at the distinct locations.

According to a still further broad aspect of the present invention thereis provided a method for removably mounting two or more temperaturesensors adjacent a water tank of a water heater to obtain temperaturereadings representative of the water temperature inside the water tankat distinct locations thereof. The method comprises the steps ofdisposing an elongated vertical conduit vertically and next to an outersurface of the water tank. The conduit has an open top end. Two or moretemperature sensors are secured to a support means for positioning thetemperature sensors at respective ones of the distinct locations. Thesupport means with the two or more temperature sensors is inserted inthe open top end to position the two or more sensors at respective onesof the distinct locations. Wiring connected to the two or moretemperature sensors is then secured to a controller device locatedexternally.

DESCRIPTION OF THE DRAWINGS

A preferred embodiment of the present invention will now be describedwith reference to the accompanying drawings in which:

FIG. 1 is a fragmented perspective view of a water heater illustrating apreferred embodiment of the present invention;

FIG. 2 is a fragmented plan view of an elongated printed circuit boardsupport on which three thermistors are mounted spaced-apart and theboard is dimensioned for insertion in the access passage, herein a tube,mounted next to the outer tank wall of the water heater, as illustratedin FIG. 1;

FIG. 3 is a fragmented sectional view illustrating a different means ofsecuring the metal tube passage against the tank wall;

FIG. 4 is a simplified fragmented side view of a water heater adaptedwith the metal tube access passage of the present invention for mountingtemperature sensors,

FIG. 5 is a cross-sectional view showing the circuit board disposed inclose sliding fit inside the tube of circular cross-section;

FIG. 6 is a fragmented view showing the tube held by a passage definingbracket, and

FIG. 7 is a further fragmented sectional view illustrating a furtherembodiment of the construction of the access passage herein formed by aU-shaped plastic extrusion shaped to hold the circuit board in slidingfit therein next to the tank wall.

DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring now to the drawings and more specifically to FIG. 1, there isshown generally at 10 a typical 3-element water heater fitted with anelongated access passage 11, herein a thermally conductive tube 11′, ofthe present invention. The water heater 10 is only schematicallyillustrated and as herein shown comprises a water tank 12 and an outercasing 13 spaced about the surrounding side wall 12′ of the tank 12 todefine an insulating gap 14 in which an insulating foam material 15 ininjected. The foam material 15 may be disposed in a plastic pouch 9, seeFIG. 3, to prevent the foam from sticking to the tank wall and the innersurface of the outer casing 13, for ease of recycling. The water heater10 has three resistive heating elements 16, only one being shown,mounted on the tank side wall 12′ by a bolted flange 17. Access doors 18provide access to the resistive heating elements for replacement whennecessary. An insulating wool (not shown) is usually disposed in theopen space behind the doors 18 which is sealed by a surrounding dam toprevent the expandable foam from expanding into this space.

With reference to additional FIGS. 2 to 6, the thermally conductive tube11′ is an elongated tube formed of thermally conductive metal, herein astainless steel sheet of about 2 mm thickness. As shown in FIG. 6, thetube 11′ is held captive against the outer surface 19 of the side wall12′ of the water tank 12 by a bracket 20 having an attachment portion 21secured to the resistive heating element support flange 17 by the bolts22 and a passage defining portion, herein arms 23 shaped to extendtowards the surface 19 of the tank side wall 12′ to define a restrainedspace 8 sized to receive the tube 11′ there behind vertically next tothe outer surface 19 of the tank side wall 12′. Only one bracket 20 isherein illustrated, but one is secured to all three clamp flanges 17.Accordingly, there is defined a restraining passage by the verticallyaligned brackets 20 and the tube 11′ is simply slid into the alignedrestraining spaces 8 from the top one of the brackets 20.

Once the insulation 15 expands in the gap 14 it acts as a thermal sealon the tube and also hold the tube firmly in place against the tank sidewall 12′. Because the tube 11′ is in contact with the water tank outersurface 19 it assumes the same temperature as the tank wall 12′ allalong the tube with the lowermost portion being the coldest and theuppermost portion, which is the region of the top heating element 16being the hottest. The air inside the tube 11′ is also heated by thetube and assumes a temperature substantially the same as that of thetube and the side wall 12′ of the tank as well as the water inside thetank at that specific location. The difference in temperature may be nomore than about one degree F. Accordingly, the access passage, hereinthe tube 11′, provides an air temperature environment representative ofthe temperature of the water at different locations inside the watertank. As well, it provides access for the removable mounting oftemperature sensors and associated wiring should there be a need forreplacement due to a defective component or conductor.

With reference to FIG. 2 there is shown a fragmented plan view of aprinted circuit board 25 formed as a straight elongated flat rectangularsupport for mounting temperature sensors, herein thermistors 26 atspaced locations thereon. The thermistors have their leads secured toprinted conductive strips 27 which lead to an end junction 28 to whichwires of a cable 29 are attached with the cable exiting the open top endthrough a clamp secured to a closure plate 24′ mounted on the top wall22 of the water heater outer casing 13, as illustrated in FIG. 1. Thecable 29 is secured to a controller device 30 through which theoperation of the resistive heating elements 16 is controlled. A dcsupply cable 31 is also connected to the end junction to supply therequired voltage to the thermistors 26. The printed circuit boardassembly is inserted into the tube 11′ from the open top end and theclamp 24′ supports the circuit board 25 suspended in the tube 11′. Also,the tube 11′ may have a bottom wall to support the circuit board thereonin position inside the tube with the thermistors located at the desiredlocations. As shown in FIG. 5, the circuit board 25 has a width slightlysmaller than the inner diameter of the tube 11′ for close sliding fittherein. Accordingly, the thermistor leads and printed conductors areprevented from contacting the metal tube 11′.

Other supports may be devised for positioning the thermistors atdistinct locations in the tube 11′, such as a rod of non-electricallyconductive material on which the sensors and its associated wiring isdisposed. Such a support rod would also have insulating spaces toprevent contact of the conductors with the tube inner surface to causean electrical short circuit.

Referring now to FIGS. 3 and 4, there is illustrated another example ofthe securing means for the tube 11′. As herein shown the tube 11′ issecured to the outer surface 19 of the tank wall 12′ by adhesive tapes35. Once the foam is injected, the tube is firmly held against the outersurface of the tank wall. With this securing means the tube need not belocated adjacent the heating elements flanges 17 and held by a bracket.

Referring now to FIG. 7, there is illustrated a further example of theconstruction of the access passage 11. As shown, the passage 11 isformed by an elongated straight U-shaped plastic channel 11″ securedagainst the outer surface 19 of the tank side wall 12′. The channel 11″may also be formed of suitable heat conductive metal, such as stainlessstainless steel. The channel 11″ defines a base wall 36 and opposed sidewalls 37 and 37′ shaped to define a longitudinal through 38 with thepassage being defined by the space 39 formed by the longitudinal through38 and the outer surface 19 of the tank side wall 12′. The U-shapedmetal channel 11″ is also formed with opposed flanges 40 and 40′ shapedfor contact with the outer surface 19 of the tank side wall forattachment by adhesive tape 41 disposed thereover and the outer surfaceof the tank side wall. The opposed side walls 37 and 37′ are shaped todefine a V-shaped recess 42 to receive opposed side edges 25′ of thecircuit board 25 in close slid ding fit there between with thethermistors 26 closely spaced to the tank side wall 12′.

What follows is a summary of the method of removably mountingtemperature sensors adjacent a water tank of a water heater to obtaintemperature readings representative of the water temperature inside thewater tank at distinct locations thereof, namely the bottom, middle andtop portions of the water tank. An elongated vertical conduit isdisposed next to the outer surface 19 of the water tank 12, with theconduit having an open top end 24. Two or more temperature sensors,three thermistors 26 illustrated in FIG. 2, are mounted and secured on asupport, herein an elongated rectangular thin printed circuit board 25for positioning the thermistors inside the conduit or tube 11′ atdistinct locations. The wiring to the thermistors are connected to acontroller device which monitors the resistive values of the thermistorsrepresentative of the water temperature in the tank adjacent thethermistors and which are utilized to control the operation of theresistive heating elements as necessary by a provider or the utility ora set program in the controller device accessible by the customer. Theaccess passage herein the tube 11′ is held vertically in place bybrackets 20 or adhesive tape 35.

It is within the ambit of the present invention to cover obviousmodifications of the preferred embodiment and examples described herein,provided such modifications fall within the scope of the appendedclaims.

1. An elongated access passage for removable mounting of temperaturesensors adjacent a water tank of a water heater, said access passagebeing disposed vertically next to an outer surface of a water tank wallof said water heater, said access passage being dimensioned to receiveone or more temperature sensors secured on a support thereof from a topaccess opening of said passage for positioning said one or moretemperature sensors at distinct locations therein for sensing thetemperature surrounding said one of more temperature sensors at saiddistinct locations.
 2. The temperature access passage as claimed inclaim 1 wherein said access passage is formed by a straight metalconduit disposed against said outer surface of said water tank wall. 3.The temperature access passage as claimed in claim 2 wherein saidconductive metal conduit is a tube formed from thin sheet stainlesssteel.
 4. The temperature access passage as claimed in claim 3 whereinsaid thin sheet stainless steel has a thickness of about 2 mm.
 5. Thetemperature access passage as claimed in claim 2 wherein there isfurther provided holding means for retaining said metal conduitsubstantially vertically next to said outer surface of said water tankwall.
 6. The temperature access passage as claimed in claim 5 whereinsaid holding means is a bracket having an attachment portion secured toa resistive heating element support flange and a passage definingportion for retaining said metal conduit next to said outer surface ofsaid water tank wall, therebeing at least two of said bracket with saidpassage defining portion of said at least two brackets being verticallyaligned with each other to receive said straight metal conduit.
 7. Thetemperature access passage as claimed in claim 6 wherein said passagedefining portion is formed by a pair of spaced apart arms bent in thedirection of said water tank wall to define a trapped space therebehindand to one side of said resistive heating element support flange.
 8. Thetemperature access passage as claimed in claim 1 wherein said accesspassage is formed by a U-shape channel secured against said outersurface of said water tank wall, said channel having a base wall andopposed side walls to define a longitudinal through, each said opposedside walls being shaped to define a recess to receive opposed side edgesof an elongated rectangular circuit board in close sliding fittherebetween to prevent transverse displacement thereof, said circuitboard constituting said support, said passage being defined by the spaceformed by said longitudinal through and said outer surface of said watertank wall.
 9. The temperature access passage as claimed in claim 9wherein said U-shaped channel is formed of metal or plastic material.10. The temperature access passage as claimed in claim 8 wherein thereis further provided securing means for retaining said channel againstsaid outer surface of said water tank wall.
 11. The temperature accesspassage as claimed in claim 10 wherein said securing means is furtherprovided by an expandable foam insulation disposed over said metalchannel and said outer surface of said water tank wall.
 12. Thetemperature access passage as claimed in claim 1 wherein said accesspassage has an open top end, said open top end constituting said topaccess passage, said open top end being accessible from a top wall of anouter casing disposed about said water tank and insulated therefrom byan expandable foam insulation disposed in a gap formed between saidwater tank and said outer casing, and a removable cover closing saidopen top end.
 13. The temperature access passage as claimed in claim 1wherein said support is a rigid elongated rectangular printed circuitboard dimensioned for insertion and removable from said access openingof said passage in close sliding fit therein, said one or moretemperature sensors being secured at predetermined positions on saidprinted circuit board.
 14. The temperature access passage as claimed inclaim 13 wherein said one or more temperature sensors are thermistors,there being at least two or three of said thermistors secured to saidprinted circuit board, conductors on said printed circuit board to whichsaid thermistors are connected and a wire cable secured to saidconductors and exiting said access opening of said passage forconnection to a controller device disposed outside said water heater toprovide actual temperature signal values to said controller device, saidwire cable being immovably clamped to a removable cover plate on a topwall of an outer casing of said water heater to support said circuitboard in position in said access passage.
 15. A water heater comprisedof a water tank, resistive heating elements to heat water is said watertank, an outer casing secured spaced from a surrounding side wall and atop wall of said water tank and defining an insulating gap there betweento receive a thermally insulating material, and an access passage of apredetermined length extending vertically next to said surrounding sidewall of said water tank for receiving therein two or more temperaturesensors at distinct locations therein for sensing the temperature of theair surrounding said one or more temperature sensors at said distinctlocations.
 16. The water heater as claimed in claim 15 wherein saidaccess passage is formed by one of a tube and a channel formed againstan outer surface of said water tank.
 17. The water heater as claimed inclaim 16 wherein said temperature sensors are thermistors mounted in aspaced-apart configuration on an elongated support adapted to bedisposed in close sliding fit in said access passage.
 18. The waterheater as claimed in claim 16 wherein said access passage is formed bythin stainless steel sheeting having a gauge of about 2 mm.
 19. Thewater heater as claimed in claim 16 wherein said tube or channel istrapped next to or secured against an outer surface of said water tankside wall.
 20. The water heater as claimed in claim 15 wherein there arethree of said temperature sensors, said temperature sensors beingthermistors; each of said three thermistors being disposed adjacent anassociated one of a lower portion, a middle portion and a top portion ofsaid water tank to provide resistive signal values to a controllerdevice , said resistive signal values being representative of thetemperature of water in said lower portion, middle portion and topportion of said water tank.
 21. A method for the removable mounting twoor more temperature sensors adjacent a water tank of a water heater toobtain temperature readings representative of the water temperatureinside said water tank at distinct location thereof, said methodcomprising the steps of: i) disposing an elongated conduit verticallyand next to an outer surface of said water tank, said conduit having anopen top end, ii) securing said two or more temperature sensors to asupport means for positioning said temperature sensors at respectiveones of said distinct locations, ii) inserting said support means withsaid two or more temperature sensors in said open top end to positionsaid two or more sensors at said respective ones of said distinctlocations, and iv) securing wiring connected to said two or moretemperature sensors to a controller device located externally.
 22. Themethod of claim 21 wherein there is further provided the step ofdisposing thermally insulating expandable foam material in a surroundinggap formed between said water tank and an outer casing of said waterheater thereby insulating said elongated vertical conduit on said watertank and immovably retaining same on said outer surface of said watertank.
 23. The method of claim 21 wherein said step (i) of disposingcomprises disposing a thermally conductive conduit in contact with saidouter surface of said water tank.
 24. The method of claim 23 whereinsaid thermally conductive conduit is a thin stainless steel conduithaving improved thermal conductivity.
 25. The method of claim 24 whereinsaid thin stainless steel conduit is formed from a thin sheet ofstainless steel having a thickness of about 2 mm.
 26. The method ofclaim 23 wherein said step of arranging further comprises securing apassage defining bracket on two or more spaced-apart resistive heatingelements support flanges secured to said water tank outer surface withsaid passage defining brackets being vertically aligned, and insertingsaid thermally conductive conduit in a passage defining portion of saidvertically aligned brackets from a top one thereof to trap said conduitagainst said outer surface of said water tank.
 27. The method of claim23 wherein the step of disposing comprises securing an elongatedU-shaped channel in a vertical position on said outer surface of saidwater tank with said U-shaped channel facing said outer surface to formsaid elongated vertical conduit between said outer surface and saidU-shape channel.
 28. The method of claim 27 wherein said U-shapedchannel is formed of one of metal and plastic material, said channelhaving a base wall and opposed side walls to define a longitudinalthrough, said opposed side walls being shaped to define a recess toreceive opposed side edges of an elongated rectangular circuit board inclose sliding fit between said opposed side walls to prevent transversedisplacement of said circuit board.
 29. The method of claim 27 whereinsaid step of securing comprises applying adhesive tape on portions ofsaid U-shaped channel to secure same to said outer surface of said watertank; said elongated conduit being defined by the space between saidbase wall, opposed side walls, and the outer surface of said water tank.30. The method of claim 21 wherein said temperature sensors arethermistors and wherein said wiring includes a supply voltage secured tosaid two or more thermistors, said controller device monitoring theresistive value of said two or more thermistors to determine thetemperature of the air in said conduit at said respective ones of saiddistinct locations, said temperature of said air being representative ofthe temperature of said water in said tank at said distinct locations.